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This book collects the main contributions from the 4th edition of the NICFD conference, organized by the Special Interest Group on Non-Ideal Compressible Fluid Dynamics (SIG- 49). It provides some of the latest research findings in the field of NICFD, relevant to a number of engineering applications related to the conversion of renewable and waste energy sources, like, e.g., organic Rankine cycles, super-critical CO2 cycle power plants, combustors operating with supercritical fluids, and heat pumps. The book reports on research encompassing theoretical, computational, and experimental aspects of the gas-dynamics of non-ideal reactive and non-reactive flows and their impact for the design of internal-flow components (turbomachinery, heat exchangers, combustors). All chapters address challenges related to characterizing the behaviour of non-ideal fluids, where state-of-the-art models are used to predict the thermo-physical properties of both pure and multi-phase fluids. .
Engineering sciences. Technology --- ingenieurswetenschappen --- Fluid dynamics. --- Fluid dynamics
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This textbook and exercise book is aimed at future users of computational fluid dynamics software. In addition to the comprehensibly presented basics, the focus is on technical examples treated in detail with supplementary practical hints. Comprehension questions including applications give the beginner confidence in fundamental relationships. The original 4th German edition has been adapted to the latest program version ANSYS 18.1. The content Aim and structure of the book Conservation equations of fluid mechanics Discretization Computational meshes Solution methods Sequence of a numerical flow calculation Three application examples The target groups Engineering students at colleges and universities Engineers who carry out flow calculations Lecturers who deal with questions on numerical flow calculations The author Dr.-Ing. Stefan Lecheler is Professor of Thermodynamics in the Faculty of Mechanical Engineering at the Bundeswehr University in Munich. There, he also teaches computational fluid dynamics in the Master's program Computer Aided Engineering.
Fluid mechanics --- ingenieurswetenschappen --- vloeistoffen --- Computational fluid dynamics.
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Chemistry --- Flow chemistry --- Flow chemistry. --- Chemical processes --- Fluid dynamics
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This Handbook helps to design and build any kind of force measurement equipment for the use in a wind tunnel. It is of interest to those who want to build multi-component force measurement sensors for other applications as well. The book describes the basic relations for the design and presents handbook formulas that can be used to perform a primary determination of main dimensions of a specified multi-component force sensor. This Handbook describes material and manufacturing particularities, instrumentation techniques and methods for the compensation of environmental influences. It also discusses calibration problems of multi-component force sensors and methods for the evaluation of the data.
Fluid mechanics --- ingenieurswetenschappen --- vloeistoffen --- Fluid dynamics. --- Hydrodynamics --- Statistical methods.
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This book, together with its companion volume Design Techniques for Engine Manifolds - Wave Action Methods for IC Engines, reports the significant developments that have occurred over the last twenty years and shows how mature the calculation of one-dimensional flow has become. In particular, they show how the application of finite volume techniques results in more accurate simulations than the 'traditional'
verbrandingsmotoren --- dynamica --- Internal combustion engines --- fluida --- Internal combustion engines. --- Gas dynamics --- Unsteady flow (Fluid dynamics) --- Pipe --- Mathematical models. --- Mathematical models --- Fluid dynamics.
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The properties and effects of flows are important in many areas of science and engineering - their prediction can be achieved through analytical, experimental and computational fluid mechanics. In this essential, Karim Ghaib introduces computational fluid dynamics. After an overview of mathematical principles, the author formulates the conservation equations of fluid mechanics and explains turbulence models. He describes the most important numerical methods and then gives types and evaluation criteria of computational meshes. This essential book is thus recommended to both the beginner and the user in the field of computational fluid dynamics. The content Mathematical basics Conservation equations Turbulent flows Discretization of the conservation equations Computer network The target groups Lecturers and students of chemical engineering, process engineering and mechanical engineering Practitioners who want to use computational fluid dynamics The author Karim Ghaib studied chemical engineering with a focus on process engineering at Münster University of Applied Sciences. He currently works for one of the market leaders in the field of catalysis research and development. This book is a translation of an original German edition. The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com). A subsequent human revision was done primarily in terms of content, so that the book will read stylistically differently from a conventional translation.
Thermodynamics --- Mechanical properties of solids --- Materials sciences --- Heat engines. Steam engines --- Engineering sciences. Technology --- Fuels --- thermodynamica --- BIT (biochemische ingenieurstechnieken) --- ingenieurswetenschappen --- fysica --- warmteoverdracht --- Computational fluid dynamics.. --- Computational fluid dynamics.
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This textbook provides a general overview of porous media flow, and introduces various theoretical tools to characterize and predict the flow. It has been written for graduate and advanced graduate students in various engineering disciplines. It includes the topics such as fluid flow, conduction, convection, and radiation in porous media as well as porous medium aspects of biological systems. The concepts are supported by numerous solved examples to aid self-learning in students. The textbook also contains illustrated diagrams for better understanding of the concepts. This textbook will be useful for the core course of "Flow through Porous media" for graduate and advanced graduate students in various engineering disciplines. This textbook will also serve as a refresher course for researchers who are engaged in research related to porous media flow.
Fluid mechanics --- Thermodynamics --- Mechanical properties of solids --- Materials sciences --- Heat engines. Steam engines --- Fuels --- thermodynamica --- ingenieurswetenschappen --- fysica --- vloeistoffen --- warmteoverdracht --- Fluid dynamics. --- Porous materials. --- Fluid dynamics --- Mathematical models
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Hydraulic energy --- Fluid dynamics --- Fluides, Dynamique des --- Periodicals --- Périodiques --- Chemistry --- Physics --- Chemical Engineering --- General and Others
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This monograph uses braids to explore dynamics on surfaces, with an eye towards applications to mixing in fluids. The text uses the particular example of taffy pulling devices to represent pseudo-Anosov maps in practice. In addition, its final chapters also briefly discuss current applications in the emerging field of analyzing braids created from trajectory data. While written with beginning graduate students, advanced undergraduates, or practicing applied mathematicians in mind, the book is also suitable for pure mathematicians seeking real-world examples. Readers can benefit from some knowledge of homotopy and homology groups, but these concepts are briefly reviewed. Some familiarity with Matlab is also helpful for the computational examples.
Topology --- Mathematics --- Classical mechanics. Field theory --- topologie --- dynamica --- Braid theory. --- Fluid dynamics. --- Dynamics. --- Dinàmica de fluids
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Computer. Automation --- Fluid dynamics --- Fluides, Dynamique des --- Data processing --- Periodicals --- Informatique --- Périodiques --- Computational fluid dynamics --- Périodiques. --- #TS:TCPW --- Engineering --- Fluid Engineering --- Computer Science (Hardware & Networks) --- Information Technology --- Civil Engineering --- Engineering. --- Computer Science (Hardware & Networks). --- Information Technology.
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